lemon/soplex.cc
author Peter Kovacs <kpeter@inf.elte.hu>
Tue, 24 Mar 2009 00:18:25 +0100
changeset 604 8c3112a66878
parent 461 08d495d48089
child 539 547e966b3b29
permissions -rw-r--r--
Use XTI implementation instead of ATI in NetworkSimplex (#234)

XTI (eXtended Threaded Index) is an imporved version of the widely
known ATI (Augmented Threaded Index) method for storing and updating
the spanning tree structure in Network Simplex algorithms.

In the ATI data structure three indices are stored for each node:
predecessor, thread and depth. In the XTI data structure depth is
replaced by the number of successors and the last successor
(according to the thread index).
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/* -*- mode: C++; indent-tabs-mode: nil; -*-
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 *
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 * This file is a part of LEMON, a generic C++ optimization library.
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 *
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 * Copyright (C) 2003-2008
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 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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#include <iostream>
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#include <lemon/soplex.h>
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#include <soplex/soplex.h>
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///\file
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///\brief Implementation of the LEMON-SOPLEX lp solver interface.
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namespace lemon {
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  SoplexLp::SoplexLp() {
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    soplex = new soplex::SoPlex;
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  }
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  SoplexLp::~SoplexLp() {
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    delete soplex;
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  }
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  SoplexLp::SoplexLp(const SoplexLp& lp) {
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    rows = lp.rows;
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    cols = lp.cols;
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    soplex = new soplex::SoPlex;
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    (*static_cast<soplex::SPxLP*>(soplex)) = *(lp.soplex);
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    _col_names = lp._col_names;
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    _col_names_ref = lp._col_names_ref;
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    _row_names = lp._row_names;
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    _row_names_ref = lp._row_names_ref;
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  }
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  void SoplexLp::_clear_temporals() {
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    _primal_values.clear();
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    _dual_values.clear();
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  }
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  SoplexLp* SoplexLp::_newSolver() const {
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    SoplexLp* newlp = new SoplexLp();
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    return newlp;
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  }
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  SoplexLp* SoplexLp::_cloneSolver() const {
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    SoplexLp* newlp = new SoplexLp(*this);
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    return newlp;
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  }
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  const char* SoplexLp::_solverName() const { return "SoplexLp"; }
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  int SoplexLp::_addCol() {
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    soplex::LPCol c;
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    c.setLower(-soplex::infinity);
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    c.setUpper(soplex::infinity);
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    soplex->addCol(c);
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    _col_names.push_back(std::string());
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    return soplex->nCols() - 1;
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  }
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  int SoplexLp::_addRow() {
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    soplex::LPRow r;
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    r.setLhs(-soplex::infinity);
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    r.setRhs(soplex::infinity);
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    soplex->addRow(r);
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    _row_names.push_back(std::string());
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    return soplex->nRows() - 1;
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  }
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  void SoplexLp::_eraseCol(int i) {
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    soplex->removeCol(i);
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    _col_names_ref.erase(_col_names[i]);
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    _col_names[i] = _col_names.back();
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    _col_names_ref[_col_names.back()] = i;
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    _col_names.pop_back();
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  }
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  void SoplexLp::_eraseRow(int i) {
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    soplex->removeRow(i);
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    _row_names_ref.erase(_row_names[i]);
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    _row_names[i] = _row_names.back();
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    _row_names_ref[_row_names.back()] = i;
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    _row_names.pop_back();
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  }
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  void SoplexLp::_eraseColId(int i) {
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    cols.eraseIndex(i);
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    cols.relocateIndex(i, cols.maxIndex());
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  }
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  void SoplexLp::_eraseRowId(int i) {
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    rows.eraseIndex(i);
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    rows.relocateIndex(i, rows.maxIndex());
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  }
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  void SoplexLp::_getColName(int c, std::string &name) const {
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    name = _col_names[c];
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  }
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  void SoplexLp::_setColName(int c, const std::string &name) {
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    _col_names_ref.erase(_col_names[c]);
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    _col_names[c] = name;
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    if (!name.empty()) {
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      _col_names_ref.insert(std::make_pair(name, c));
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    }
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  }
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  int SoplexLp::_colByName(const std::string& name) const {
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    std::map<std::string, int>::const_iterator it =
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      _col_names_ref.find(name);
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    if (it != _col_names_ref.end()) {
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      return it->second;
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    } else {
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      return -1;
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    }
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  }
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  void SoplexLp::_getRowName(int r, std::string &name) const {
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    name = _row_names[r];
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  }
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  void SoplexLp::_setRowName(int r, const std::string &name) {
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    _row_names_ref.erase(_row_names[r]);
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    _row_names[r] = name;
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    if (!name.empty()) {
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      _row_names_ref.insert(std::make_pair(name, r));
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    }
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  }
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  int SoplexLp::_rowByName(const std::string& name) const {
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    std::map<std::string, int>::const_iterator it =
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      _row_names_ref.find(name);
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    if (it != _row_names_ref.end()) {
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      return it->second;
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    } else {
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      return -1;
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    }
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  }
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  void SoplexLp::_setRowCoeffs(int i, ExprIterator b, ExprIterator e) {
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    for (int j = 0; j < soplex->nCols(); ++j) {
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      soplex->changeElement(i, j, 0.0);
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    }
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    for(ExprIterator it = b; it != e; ++it) {
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      soplex->changeElement(i, it->first, it->second);
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    }
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  }
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  void SoplexLp::_getRowCoeffs(int i, InsertIterator b) const {
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    const soplex::SVector& vec = soplex->rowVector(i);
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    for (int k = 0; k < vec.size(); ++k) {
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      *b = std::make_pair(vec.index(k), vec.value(k));
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      ++b;
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    }
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  }
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  void SoplexLp::_setColCoeffs(int j, ExprIterator b, ExprIterator e) {
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    for (int i = 0; i < soplex->nRows(); ++i) {
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      soplex->changeElement(i, j, 0.0);
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    }
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    for(ExprIterator it = b; it != e; ++it) {
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      soplex->changeElement(it->first, j, it->second);
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    }
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  }
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  void SoplexLp::_getColCoeffs(int i, InsertIterator b) const {
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    const soplex::SVector& vec = soplex->colVector(i);
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    for (int k = 0; k < vec.size(); ++k) {
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      *b = std::make_pair(vec.index(k), vec.value(k));
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      ++b;
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    }
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  }
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  void SoplexLp::_setCoeff(int i, int j, Value value) {
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    soplex->changeElement(i, j, value);
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  }
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  SoplexLp::Value SoplexLp::_getCoeff(int i, int j) const {
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    return soplex->rowVector(i)[j];
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  }
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  void SoplexLp::_setColLowerBound(int i, Value value) {
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    LEMON_ASSERT(value != INF, "Invalid bound");
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    soplex->changeLower(i, value != -INF ? value : -soplex::infinity);
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  }
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  SoplexLp::Value SoplexLp::_getColLowerBound(int i) const {
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    double value = soplex->lower(i);
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    return value != -soplex::infinity ? value : -INF;
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  }
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  void SoplexLp::_setColUpperBound(int i, Value value) {
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    LEMON_ASSERT(value != -INF, "Invalid bound");
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    soplex->changeUpper(i, value != INF ? value : soplex::infinity);
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  }
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  SoplexLp::Value SoplexLp::_getColUpperBound(int i) const {
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    double value = soplex->upper(i);
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    return value != soplex::infinity ? value : INF;
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  }
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  void SoplexLp::_setRowLowerBound(int i, Value lb) {
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    LEMON_ASSERT(lb != INF, "Invalid bound");
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    soplex->changeRange(i, lb != -INF ? lb : -soplex::infinity, soplex->rhs(i));
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  }
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  SoplexLp::Value SoplexLp::_getRowLowerBound(int i) const {
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    double res = soplex->lhs(i);
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    return res == -soplex::infinity ? -INF : res;
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  }
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  void SoplexLp::_setRowUpperBound(int i, Value ub) {
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    LEMON_ASSERT(ub != -INF, "Invalid bound");
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    soplex->changeRange(i, soplex->lhs(i), ub != INF ? ub : soplex::infinity);
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  }
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  SoplexLp::Value SoplexLp::_getRowUpperBound(int i) const {
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    double res = soplex->rhs(i);
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    return res == soplex::infinity ? INF : res;
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  }
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  void SoplexLp::_setObjCoeffs(ExprIterator b, ExprIterator e) {
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    for (int j = 0; j < soplex->nCols(); ++j) {
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      soplex->changeObj(j, 0.0);
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    }
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    for (ExprIterator it = b; it != e; ++it) {
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      soplex->changeObj(it->first, it->second);
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    }
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  }
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  void SoplexLp::_getObjCoeffs(InsertIterator b) const {
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    for (int j = 0; j < soplex->nCols(); ++j) {
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      Value coef = soplex->obj(j);
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      if (coef != 0.0) {
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        *b = std::make_pair(j, coef);
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        ++b;
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      }
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    }
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  }
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  void SoplexLp::_setObjCoeff(int i, Value obj_coef) {
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    soplex->changeObj(i, obj_coef);
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  }
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  SoplexLp::Value SoplexLp::_getObjCoeff(int i) const {
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    return soplex->obj(i);
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  }
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  SoplexLp::SolveExitStatus SoplexLp::_solve() {
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    _clear_temporals();
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    soplex::SPxSolver::Status status = soplex->solve();
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    switch (status) {
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    case soplex::SPxSolver::OPTIMAL:
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    case soplex::SPxSolver::INFEASIBLE:
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    case soplex::SPxSolver::UNBOUNDED:
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      return SOLVED;
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    default:
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      return UNSOLVED;
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    }
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  }
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  SoplexLp::Value SoplexLp::_getPrimal(int i) const {
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    if (_primal_values.empty()) {
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      _primal_values.resize(soplex->nCols());
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      soplex::Vector pv(_primal_values.size(), &_primal_values.front());
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      soplex->getPrimal(pv);
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    }
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    return _primal_values[i];
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  }
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  SoplexLp::Value SoplexLp::_getDual(int i) const {
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    if (_dual_values.empty()) {
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      _dual_values.resize(soplex->nRows());
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      soplex::Vector dv(_dual_values.size(), &_dual_values.front());
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      soplex->getDual(dv);
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    }
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    return _dual_values[i];
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  }
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  SoplexLp::Value SoplexLp::_getPrimalValue() const {
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    return soplex->objValue();
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  }
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  SoplexLp::VarStatus SoplexLp::_getColStatus(int i) const {
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    switch (soplex->getBasisColStatus(i)) {
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    case soplex::SPxSolver::BASIC:
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      return BASIC;
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    case soplex::SPxSolver::ON_UPPER:
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      return UPPER;
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    case soplex::SPxSolver::ON_LOWER:
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      return LOWER;
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    case soplex::SPxSolver::FIXED:
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      return FIXED;
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    case soplex::SPxSolver::ZERO:
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      return FREE;
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    default:
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      LEMON_ASSERT(false, "Wrong column status");
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      return VarStatus();
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    }
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  }
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  SoplexLp::VarStatus SoplexLp::_getRowStatus(int i) const {
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    switch (soplex->getBasisRowStatus(i)) {
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    case soplex::SPxSolver::BASIC:
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      return BASIC;
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    case soplex::SPxSolver::ON_UPPER:
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      return UPPER;
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    case soplex::SPxSolver::ON_LOWER:
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      return LOWER;
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    case soplex::SPxSolver::FIXED:
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      return FIXED;
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    case soplex::SPxSolver::ZERO:
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      return FREE;
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    default:
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      LEMON_ASSERT(false, "Wrong row status");
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      return VarStatus();
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    }
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  }
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  SoplexLp::Value SoplexLp::_getPrimalRay(int i) const {
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    if (_primal_ray.empty()) {
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      _primal_ray.resize(soplex->nCols());
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      soplex::Vector pv(_primal_ray.size(), &_primal_ray.front());
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      soplex->getDualfarkas(pv);
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    }
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    return _primal_ray[i];
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  }
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  SoplexLp::Value SoplexLp::_getDualRay(int i) const {
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    if (_dual_ray.empty()) {
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      _dual_ray.resize(soplex->nRows());
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      soplex::Vector dv(_dual_ray.size(), &_dual_ray.front());
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      soplex->getDualfarkas(dv);
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    }
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    return _dual_ray[i];
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  }
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  SoplexLp::ProblemType SoplexLp::_getPrimalType() const {
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    switch (soplex->status()) {
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    case soplex::SPxSolver::OPTIMAL:
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      return OPTIMAL;
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    case soplex::SPxSolver::UNBOUNDED:
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      return UNBOUNDED;
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    case soplex::SPxSolver::INFEASIBLE:
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      return INFEASIBLE;
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    default:
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      return UNDEFINED;
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    }
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  }
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  SoplexLp::ProblemType SoplexLp::_getDualType() const {
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    switch (soplex->status()) {
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    case soplex::SPxSolver::OPTIMAL:
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      return OPTIMAL;
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    case soplex::SPxSolver::UNBOUNDED:
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      return UNBOUNDED;
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    case soplex::SPxSolver::INFEASIBLE:
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      return INFEASIBLE;
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    default:
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      return UNDEFINED;
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    }
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  }
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  void SoplexLp::_setSense(Sense sense) {
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    switch (sense) {
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    case MIN:
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      soplex->changeSense(soplex::SPxSolver::MINIMIZE);
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      break;
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    case MAX:
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      soplex->changeSense(soplex::SPxSolver::MAXIMIZE);
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    }
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  }
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  SoplexLp::Sense SoplexLp::_getSense() const {
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    switch (soplex->spxSense()) {
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    case soplex::SPxSolver::MAXIMIZE:
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      return MAX;
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    case soplex::SPxSolver::MINIMIZE:
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      return MIN;
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    default:
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      LEMON_ASSERT(false, "Wrong sense.");
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      return SoplexLp::Sense();
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    }
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  }
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  void SoplexLp::_clear() {
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    soplex->clear();
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    _col_names.clear();
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    _col_names_ref.clear();
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    _row_names.clear();
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    _row_names_ref.clear();
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    cols.clear();
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    rows.clear();
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    _clear_temporals();
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  }
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} //namespace lemon
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